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Water
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For more on marking an answer as the "Best Answer", please visit our FAQ.All liquids constantly evaporate. The hotter the liquid is, the faster it evaporates of course. The "boiling point" is simply the temperature at which a certain substance can no longer exist as a liquid, and must become a gas. For water this is 100�C when the water is evaporating into air of "standard" pressure and humidity. Under these conditions you can't get 101�C water, for example. The more heat you apply, the faster the water will evaporate, but a thermometer put in the water would show a constant 100�C.
This can be explained when you consider the individual water molecules. The molecules are always moving and bouncing off each other - very quickly, but some moving faster than others. The hotter the water, the faster the average speed of the molecules. There is also an overall attractive force holding the water molecules close together (holding them in liquid form). When one of the faster water molecules is moving towards the surface of the water, it may have enough speed to overcome the attraction of its neighbouring water molecules and escape (evaporate) into the air. Similarly, molecules of water in the air can enter a pool of liquid water. Under normal conditions there will be more water molecules leaving a pool of liquid water than entering it from the air, so the liquid slowly evaporates.
You'll also notice that, because it is always the faster/more energetic molecules that evaporate first, there is a resulting decrease in the average speed and energy of the molecules remaining in the liquid. This corresponds to an overall decrease in the temperature of the liquid.
molecules with higher kinetic energy have "left"). That is why sweat evaporating from your body provides a mechanism to cool you off.
This occurs at any temperature of water between the melting point and the
boiling point -- with more evaporation occurring with a body of water that has a higher average temperature (that is, closer to the boiling point). It can even happen below the freezing point (via sublimation -- when water goes directly from a solid (ice) to water vapor) and this explains why the ice cubes in your freezer sometimes seem to "evaporate".
All of this is assuming that you are at standard pressure of 1 atmosphere.
As the atmospheric pressure changes, water will boil and freeze at different temperatures. (With help from Newton Archives).
Continued-
So basically water boils when its vapor pressure is equal to the total pressure of the system. As for the cooling effect of evaporation mentioned above, this is due to evaporation being an endothermic reaction (heat is added for the reaction to take place). Heat is taken from the system for the reaction (phase change ) to occur, resulting in a reduction in the temperature of the system.